Abstract: The present invention is directed to methods and compositions for the production of Fc-containing polypeptides having improved properties and comprising mutations at positions 243 and 264 of the Fc region.

Abstract: The invention provides chimeric antigen receptors (CARs) that specifically bind to the T-cell immunoglobulin and mucin domain 1 (TIM-1) protein. The invention further relates to modified immune cells, e.g., T or NK cells, comprising such CARs, CAR-encoding nucleic acids, CAR-encoding vectors, and methods of making such compositions. The invention further relates to methods for therapeutic use of these CARs and modified immune cells for the treatment of a condition, disorder, or disease associated with cells expressing TIM-1 (e.g., cancer).

Abstract: The invention provides chimeric antigen receptors (CARs) that specifically bind to the T-cell immunoglobulin and mucin domain 1 (TIM-1) protein. The invention further relates to modified immune cells, e.g., T or NK cells, comprising such CARs, CAR-encoding nucleic acids, CAR-encoding vectors, and methods of making such compositions. The invention further relates to methods for therapeutic use of these CARs and modified immune cells for the treatment of a condition, disorder, or disease associated with cells expressing TIM-1 (e.g., cancer).

Abstract: The present invention is directed to methods and compositions for the production of Fc-containing polypeptides having improved properties and comprising mutations at positions 243 and 264 of the Fc region.

Abstract: The present invention is directed to methods and compositions for the production of Fc-containing polypeptides having improved properties and comprising mutations at positions 243 and 264 of the Fc region.

Abstract: The invention provides chimeric antigen receptors (CARs) that specifically bind to the T-cell immunoglobulin and mucin domain 1 (TIM-1) protein. The invention further relates to modified immune cells, e.g., T or NK cells, comprising such CARs, CAR-encoding nucleic acids, CAR-encoding vectors, and methods of making such compositions. The invention further relates to methods for therapeutic use of these CARs and modified immune cells for the treatment of a condition, disorder, or disease associated with cells expressing TIM-1 (e.g., cancer).

Abstract: The present invention is directed to methods and compositions for the production of Fc-containing polypeptides having improved properties and comprising mutations at positions 243 and 264 of the Fc region.

Abstract: Lower eukaryotic host cells have been engineered to produce glycoprotein having at least one terminal ?-galactosyl epitope. The glycoproteins are useful for the production of highly antigenic glycoprotein compositions with advantages for the production of vaccines.

Abstract: The present invention related to methods and compositions for producing therapeutic proteins in yeast cell lines, and in particular Pichia pastoris, lacking dipeptidyl aminopeptidase (DAP) activity. DAP activity has been eliminated by genetically modifying a Pichia pastoris cell line such that STE13 and DAP2 have been deleted.

Abstract: The present invention is directed to methods and compositions for the production of Fc-containing polypeptides having improved properties and comprising mutations at positions 243 and 264 of the Fc region.

Abstract: The present invention is directed to methods and compositions for the production of Fc-containing polypeptides having improved properties and comprising mutations at positions 243 and 264 of the Fc region.

Abstract: Methods for producing proteins and glycoproteins in Pichia pastoris that lack detectable cross binding activity to antibodies made against host cell antigens are described. In particular, methods are described wherein recombinant Pichia pastoris strains that do not display a ?-mannosyltransferase 2 activity with respect to an N-glycan or O-glycan and do not display at least one activity selected from a ?-mannosyltransferase 1, 3, and 4 activity to produce recombinant proteins and glycoproteins. These recombinant Pichia pastoris strains can produce proteins and glycoproteins that lack detectable ?-mannosidase resistant ?-mannose residues thereon and thus, lack cross binding activity to antibodies against host cell antigens. Further described are methods for producing bi-sialylated human erythropoietin in Pichia pastoris that lack detectable cross binding activity to antibodies against host cell antigens.

Abstract: Lower eukaryotic host cells have been recombinantly engineered to produce glycoprotein having human-like O-glycosylation. The glycoproteins are useful for the production of glycoprotein compositions with advantages for the production of human therapeutics.

Abstract: Systems for making, identifying, and selecting recombinant cells that express a ligand for the insulin receptor (IR) or insulin growth factor I (IGF-1) receptor are described. In general, libraries of recombinant cells are constructed that are capable of displaying a plurality of ligand molecules on the cell surface. Recombinant cells that display a ligand in a form accessible for binding to the IR and/or IGF-1 receptor can be detected and the recombinant cells displaying said ligands can be selected and isolated using cell sorting technologies. In particular aspects, the system is useful for constructing and screening libraries of recombinant cells that express and displaying insulin analogue precursors molecules to identify and select recombinant cells in the library that bind the IR and/or IGF-1 receptor with a desired affinity and/or avidity.

Abstract: Lower eukaryotic host cells have been engineered to produce glycoprotein having at least one terminal ?-galactosyl epitope. The glycoproteins are useful for the production of highly antigenic glycoprotein compositions with advantages for the production of vaccines.

Abstract: The present invention is directed to methods and compositions for the production of Fc-containing polypeptides having improved properties.

Abstract: Described is a method for increasing the N-glycosylation site occupancy of a therapeutic glycoprotein produced in recombinant host cells modified as described herein and genetically engineered to express the glycoprotein compared to the N-glycosylation site occupancy of the therapeutic glycoprotein produced in a recombinant host cell not modified as described herein. In particular, the method provides recombinant host cells that overexpress a heterologous single-subunit oligosaccharyltransferase, which in particular embodiments is capable of functionally suppressing the lethal phenotype of a mutation of at least one essential protein of the yeast oligosaccharyltransferase (OTase) complex, for example, the Leishmania major STT3D protein, in the presence of expression of the host cell genes encoding the endogenous OTase complex.

Abstract: Methods for producing proteins and glycoproteins in Pichia pastoris that lack detectable cross binding activity to antibodies made against host cell antigens are described. In particular, methods are described wherein recombinant Pichia pastoris strains that do not display a ?-mannosyltransferase 2 activity with respect to an N-glycan or O-glycan and do not display at least one activity selected from a ?-mannosyltransferase 1, 3, and 4 activity to produce recombinant proteins and glycoproteins. These recombinant Pichia pastoris strains can produce proteins and glycoproteins that lack detectable ?-mannosidase resistant ?-mannose residues thereon and thus, lack cross binding activity to antibodies against host cell antigens. Further described are methods for producing bi-sialylated human erythropoietin in Pichia pastoris that lack detectable cross binding activity to antibodies against host cell antigens.

Abstract: Described is a method for increasing the N-glycosylation site occupancy of a therapeutic glycoprotein produced in recombinant host cells modified as described herein and genetically engineered to express the glycoprotein compared to the N-glycosylation site occupancy of the therapeutic glycoprotein produced in a recombinant host cell not modified as described herein. In particular, the method provides recombinant host cells that overexpress a heterologous single-subunit oligosaccharyltransferase, which in particular embodiments is capable of functionally suppressing the lethal phenotype of a mutation of at least one essential protein of the yeast oligosaccharyltransferase (OTase) complex, for example, the Leishmania major STT3D protein, in the presence of expression of the host cell genes encoding the endogenous OTase complex.

Abstract: Lower eukaryotic host cells have been recombinantly engineered to produce glycoprotein having human-like O-glycosylation. The glycoproteins are useful for the production of glycoprotein compositions with advantages for the production of human therapeutics.